Biyolojide öğrenciler genotip ve fenotip arasındaki farkı öğrenirler. - In biology, the students learn the difference between the genotype and the phenotype.
The organism-level traits and characters of a species or individual organism There are typically economically important, if they function in natural selection, but it is held by some that not all phenotypic traits are selectively biassed Phenotypic traits are the result of the expression of the genes of the organism Sometimes a trait is actually a 'norm of reaction', for it may be expressed in different ways in different environments (eg, height depending on diet)
The form of the organism A result of the combined influences of the genotype and the environment on the self-organizing internal processes during development
The observable traits or characteristics of an organism, for example, hair color, weight, or the presence or absence of a disease 1 Polymorphism: A common variation in the sequence of DNA among individuals 1
The observable characteristics of an organism as opposed to the set of genes it possesses (its genotype) The phenotype that an organism manifests is a result of both genetic and environmental factors Therefore, organisms with the same genotype may display different phenotypes due to environmental factors Conversely, organisms with the same phenotypes may have different genotypes
The outward appearance of an organism which results from the interaction of both genetic and environmental effects For example, a plant with genes for tallness will actually be small if not given adequate water or heat
The characteristic of a species or individual of a species that is specific for this species and can be inherited from generation to generation Each phenotype is the result of a genotype, i e , the genetic information stored in DNA Most phenotypes are morphological, i e , they describe a particular structure, size, texture, or color of an organism or part of an organism Examples are the shape and arrangement of leaves of plants, or the legs, wings, and body segmentation of insects These morphological phenotypes are the bases of most taxonomic classification of an organism, i e , the organization of the evolutionary relationship among all life on Earth thought to originate from a single ancestral cell type Phenotypes can also be functional characteristics and can best be thought of as hereditary diseases or metabolic processes (photosynthesis, skin color pigmentation)
(adjective PHENOTYPIC): visible characteristics and/or behavior that result from the interaction of an organism's genetic "blueprint" (genotype) and the environment Phenotypic resistance testing determines whether an organism is susceptible to a specific drug in a test tube Contrast with genotype
The physical appearance of an individual that is a result of that individual's genotype and the interaction of the genotype with the environment during development Hence individuals with the same genotypes may have different phenotypes in different environments
A set of observable physical characteristics of an individual organism A single characteristic can be referred to as a "trait," although a single trait is sometimes also called a phenotype For example, blond hair could be called a trait or a phenotype, as could obesity A phenotype can be the result of many factors, including an individual's genotype, environment, and lifestyle, and the interactions among these factors The observed manifestation of a genotype, a phenotype may be expressed physically, biochemically, or physiologically [Source: NHBLI/NCBI Glossary ]
All the observable characteristics of an organism, such as shape, size, colour, and behaviour, that result from the interaction of its genotype (total genetic makeup) with the environment. The phenotype may change throughout the life of an individual because of environmental changes and the changes associated with aging. Different environments can influence the development of inherited traits (e.g., size is affected by available food supply) and can alter expression by similar genotypes (e.g., twins brought up in dissimilar families may mature differently). Furthermore, not all inherited possibilities in the genotype are expressed in the phenotype, because some are the result of inactive, recessive, or inhibited genes. See also variation
the observed traits of an organism, resulting from an interaction of its genotype and its environment - the characteristics of an organism that result from the interaction of its genetic constitution with the environment [CUB]